What is the magnitude of the electric flux passing a square sheet of paper with an area of 25mm2 and an electric field of 2000 N/C that creates an angle of 63.5° from the normal line? From the problem, which of the following is the correct way of writing the given? Group of answer choices E = 2000 N/C; r = 25mm; θ = 63.5° E = 2000 N/C ; A = 25mm2; φ = 63.5° E = 2000 N/C ; r = 25mm2; φ = 63.5° E = 2000 N/C; A = 25mm2 θ = 63.5°

What is the magnitude of the electric flux passing a square sheet of paper with an area of 25mm2 and an electric field of 2000 N/C that creates an angle of 63.5° from the normal line? From the problem, which of the following is the correct way of writing the given? Group of answer choices E = 2000 N/C; r = 25mm; θ = 63.5° E = 2000 N/C ; A = 25mm2; φ = 63.5° E = 2000 N/C ; r = 25mm2; φ = 63.5° E = 2000 N/C; A = 25mm2 θ = 63.5°

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter15: Electric Forces And Fields

Section15.8: Electric Flux And Gauss' Law

Problem 15.9QQ: Find the electric flux through the surface in Figure 15.28. Assume all charges in the shaded area...

See similar textbooks

Similar questions

Find the electric flux through the surface in Figure 15.28. Assume all charges in the shaded area are inside the surface. (a) (3 C)/0 (b) (3 C)/0 (c) 0 (d) (6C)/0
3 A circular disc with an area of 10m^2 is subjected to an electric field of 5N/C. The electric field creates a 15° angle with a line drawn perpendicular to the surface of the disc. What is the value of the electric flux? 12.94 Nm^2/C 6.47 Nm^2/C 48.30 Nm^2/C 1517.27 Nm^2/C
2 What is the magnitude of the electric flux passing through the flat surface, tilted at 75° with respect to the field lines, if the electric field has a magnitude of 36 N/C and the dimensions of the surface is 10 m x 12 m?* 3915 Nm^2/C 1118 Nm^2/C 4320 Nm^2/C 4173 Nm^2/C
The figure below shows a uniform electric field of magnitude E = 470 N/C making an angle of ? = 61.0° with a flat surface of area A = 3.10 m2. What is the magnitude of the electric flux through this surface (in N · m2/C)?
A uniform electric field of magnitude E = 38.5 N/C makes and angle of θ = 67.3° relative to a line normal to a surface with area A = 3.01 m2. What is the electric flux (Φ) that passes through this surface? Your answer should be in N·m2/C
The surface shown is a square and has a side length of 11.0 cm. The electric field acting on this area has a magnitude of 108 N/C at an angle of 29.3°. Calculate the electric flux through the shown surface. -0.640 N m2/C 1.14 N m2/C 1.30×104 N m2/C 1.14×104 N m2/C
What is the electric flux of a sphere with a 1.5m radius experiencing a 102.3 N/C at a 38° angle above the surface of the sphere? Group of answer choices 1.78x10^3 Nm^2/C 1.78x10^-3 Nm^2/C 1.78x10^3 Nm^2/C^2 1.78x10^-3 Nm^2/C^2
What is the area of a rectangle whose electric flux is 3.35x10-10 C2/Nm2 and electric field of 250 N/C?
A circular surface with a radius of 0.062 m is exposed to a uniform electric field of magnitude 1.58 × 104 N/C. The electric flux through the surface is 68 N·m2/C. What is the angle between the direction of the electric field and the normal to the surface?
A 3.65x10-12 C is placed inside a cube. What is the amount of electric flux passing through each side? Group of answer choices 4.12x10^-1 Nm^2/C 4.12x10^1 Nm^2/C 4.12x10^-1 Nm^2/C^2 4.12x10^1 Nm^2/C^2
7. An electric flux of 8.99x10-12 Nm2/C is passing through a sphere created by 1.25x10-3 N/C electric field. What is the radius of the sphere? Group of answer choices 2.39x10^-5 m^2 2.39x10^-5 m 2.39x10^5 m^2 2.39x10^5 m
An electric field passes through a surface produces an electric flux which has a magnitude of 46?.?2. Find the magnitude of the electric ? field if the surface area is 0.04?2. 1.64 N/C b.1.74 N/C c. 1.84 N/C